肉桂醇脱氢酶-C和-D是拟南芥花茎中参与木质素生物合成的主要基因。

CINNAMYL ALCOHOL DEHYDROGENASE-C and -D are the primary genes involved in lignin biosynthesis in the floral stem of Arabidopsis.

作者信息

Sibout Richard, Eudes Aymerick, Mouille Gregory, Pollet Brigitte, Lapierre Catherine, Jouanin Lise, Séguin Armand

机构信息

Natural Resources Canada, Canadian Forest Service, Laurentian Forestry Centre, Sainte-Foy, QC G1V 4C7, Canada.

出版信息

Plant Cell. 2005 Jul;17(7):2059-76. doi: 10.1105/tpc.105.030767. Epub 2005 Jun 3.

DOI:10.1105/tpc.105.030767

PMID:15937231

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1167552/

Abstract

During lignin biosynthesis in angiosperms, coniferyl and sinapyl aldehydes are believed to be converted into their corresponding alcohols by cinnamyl alcohol dehydrogenase (CAD) and by sinapyl alcohol dehydrogenase (SAD), respectively. This work clearly shows that CAD-C and CAD-D act as the primary genes involved in lignin biosynthesis in the floral stem of Arabidopsis thaliana by supplying both coniferyl and sinapyl alcohols. An Arabidopsis CAD double mutant (cad-c cad-d) resulted in a phenotype with a limp floral stem at maturity as well as modifications in the pattern of lignin staining. Lignin content of the mutant stem was reduced by 40%, with a 94% reduction, relative to the wild type, in conventional beta-O-4-linked guaiacyl and syringyl units and incorportion of coniferyl and sinapyl aldehydes. Fourier transform infrared spectroscopy demonstrated that both xylem vessels and fibers were affected. GeneChip data and real-time PCR analysis revealed that transcription of CAD homologs and other genes mainly involved in cell wall integrity were also altered in the double mutant. In addition, molecular complementation of the double mutant by tissue-specific expression of CAD derived from various species suggests different abilities of these genes/proteins to produce syringyl-lignin moieties but does not indicate a requirement for any specific SAD gene.

摘要

在被子植物木质素生物合成过程中，松柏醛和芥子醛据信分别通过肉桂醇脱氢酶（CAD）和芥子醇脱氢酶（SAD）转化为它们相应的醇。这项研究清楚地表明，CAD - C和CAD - D作为拟南芥花茎中木质素生物合成的主要基因，通过提供松柏醇和芥子醇发挥作用。一个拟南芥CAD双突变体（cad - c cad - d）在成熟时表现出花茎柔软的表型以及木质素染色模式的改变。突变体茎中的木质素含量降低了40%；相对于野生型，传统的β - O - 4连接型愈创木基和紫丁香基单元减少了94%，同时含有松柏醛和芥子醛。傅里叶变换红外光谱表明木质部导管和纤维均受到影响。基因芯片数据和实时定量PCR分析显示，双突变体中CAD同源基因以及其他主要参与细胞壁完整性的基因的转录也发生了改变。此外，通过不同物种来源的CAD的组织特异性表达对双突变体进行分子互补，结果表明这些基因/蛋白产生紫丁香基木质素部分的能力不同，但并未表明需要任何特定的SAD基因。

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